DE10043819A1 - Small caliber projectile consists of a lead-free material with a specified minimum density - Google Patents

Abstract

A small caliber projectile consists of a lead-free material with a density of more than 5g/cm<3>.

Description

The invention relates to a small-caliber full floor.

Small caliber bullets are usually made of lead and lead alloys produced, for example, by cutting pieces into pieces from a lead wire Matrices can be deformed to projectiles. Small bore shooting is a sport that is carried out both outdoors and in halls. The shooting of Lead bullets produce gases containing lead dust that are harmful to health. Therefore, when shooting in halls, special regulations regarding the Ventilation must be observed. Furthermore, when shooting outdoors, the for Lead residues of the projectiles, which are harmful to the environment, are collected and disposed of become. The measures required when firing lead bullets Protection of people and the environment is complex and expensive.

It is therefore the object of the invention to overcome the disadvantages indicated Avoid shooting small-caliber bullets.

The task is solved with the help of the characteristic features of the first Claim. Advantageous embodiments of the invention are in the Claimed claims.

Instead of the toxic lead and its alloys, the invention proposes a small-caliber bullet made of a lead-free material, the density of which is <5 g / cm ³ . Such a material has sufficient trajectory stability due to its density. When firing, there are no toxic pencils and when firing outdoors, the bullet remains do not have to be collected as they do not contaminate the environment.

The metals tin or zinc or alloys of these two materials are particularly suitable materials, which are suitable both in terms of their hardness, their density and their harmlessness to the environment. Tin has a density of about 7.2 g / cm ³ and zinc of about 7.3 g / cm ³ .

Furthermore, the material can also be a plastic, preferably a Thermoplastic that can easily be molded into a projectile by injection molding. Plastics that rot in nature are particularly advantageous. These bullets are eliminated in a natural way, so that no elaborate collection is required.

This can influence the trajectory properties of projectiles made of plastic be taken that the plastic metal powder with high density, for example Tungsten is added. The higher the proportion of metal powder, the heavier it becomes the projectile, which positively affects the propellant charge accordingly Trajectory stability and impact impact.

Lead is compared to the materials mentioned for the projectile according to the invention usually softer. Therefore, the deformation of the rear floor causes a good eyebrows. Soft lead has a Vickers hardness of around 5 HV. The Vickers Tin hardness is also around 5 HV, while pure zinc hardness Is 35 HV. In order for materials that are harder than lead, the eyelids are equally good must reach the recess in the shape, depth and Diameter can be matched to the material used. This The depression generally has the shape of a spherical cap. Only an optimal eyelid results a precise shot. The deepening of a storey starting from the rear lead-free material is therefore usually much more pronounced than in a lead bullet. This will remove the remaining walls of the Sleeve receptacle, especially in the area of the tail, thin and therefore also at harder materials than lead easily deformable. The depression can be hard  Make up materials up to 65% of the length of the sleeve holder. This is in the Usually about 3 mm long.

In order to compare the bullet materials that are harder than lead firm and even fit of the projectile in the cartridge case reproducible to ensure, the sleeve receptacle of the projectile has a sleeve insertion groove on. This is the only way to achieve a sleeve pinch with a fixed projectile seat and a high one Tool life can be reached. The pinching causes a uniform projectile pull-out force. This has a positive effect on the precision of the Shot and thus on the accuracy.

The invention is explained in more detail using an exemplary embodiment.

The figure shows a small-caliber full storey 1 according to the invention, here made of a zinc alloy, on an enlarged scale. Compared to the conventional projectiles, the sleeve receptacle 2 has the following differences: In order to achieve optimal lids for the hard material zinc, the depression in the form of a spherical cap 3 penetrates deeply into the sleeve receptacle 2 from the rear 4 . As a result, the remaining walls of the sleeve receptacle 2 , in particular in the area of the tail 4 , become thin and therefore easily deformable even with zinc as a harder material than lead. From the rear 4 of the projectile 1 to the pole 5 of the calotte 3 , which lies on the axis 6 of the projectile, the calotte 3 extends over a depth 7 into the sleeve receptacle 2 of the projectile. In the present exemplary embodiment, the depth 7 is 65% of the total length 8 of the sleeve receptacle 2 .

So that the projectile 1 has a tight fit in the sleeve 9 , the sleeve receptacle 2 has a sleeve insertion groove 10 . The sleeve edge 11 is pressed into this sleeve insertion groove 10 , which causes a sleeve pinching with a fixed projectile seat.

Claims (9)

1. Small caliber full floor, characterized in that the floor ( 1 ) consists of a lead-free material that has a density <5 g / cm ³ . 2. Small-caliber full floor according to claim 1, characterized in that the material of the projectile ( 1 ) is tin or zinc or one of the alloys of these metals. 3. Small caliber full floor according to claim 1, characterized in that the The material of the projectile is a plastic. 4. Small caliber full floor according to claim 4, characterized in that the Plastic is a thermoplastic. 5. Small caliber full floor according to claim 3 or 4, characterized in that the plastic is a rotten plastic. 6. Small-caliber full floor according to one of claims 3 to 5, characterized characterized in that the plastic is a metal powder of a metal with high Density, for example tungsten is mixed. 7. Small-caliber full floor according to one of claims 1 to 6, characterized in that the sleeve receptacle ( 2 ) of the projectile ( 1 ) has a recess ( 3 ) extending from the rear ( 4 ), the depth ( 7 ) of which depends on the hardness of the material accounts for up to 65% of the length ( 8 ) of the sleeve holder ( 2 ). 8. Small-caliber full floor according to claim 8, characterized in that the recess ( 3 ) has the shape of a spherical cap. 9. Small caliber full floor according to one of claims 1 to 8, characterized in that the sleeve receptacle ( 2 ) has a sleeve feed groove ( 10 ).